Multiple electric air and car coupling



RQ s. AvEmLL AND c. H. lTOI/ILINSON.,` MULTIPLE ELECTRIC AIR AND CAR COUF'LING.

APPLICA-TION FILED JULY 7, i917.

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H. G. AVERILL AND C. H. TOMLINSON.

' MULTIPLE ELECTRIC AIR AND CAR COUPLING.

APPLICATION FILED IuLY I, IsIJ.

1,353,557., Patentedspn 21,1920.

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MULTIPLE ELECTRIC AIR AND CAR COUPLING.

APPLICATION FILED Juv/7,1m.

l ,35.557. Patented Sept. 2L 1920.

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O )it il I Y R. G. AVERILL'AND C. H. TQMLINSON. MULTIPLE ELECTRIC AIR AND CAR couPLING.

APPLICATION FILED JULY I. 1917.

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(mim/70772 011/ R. G. AVERILL AND C. H. TOMLINSON. MULTIPLE ELECTRIC AIR AND CAR couPLlNG.

APPLICATION FILED JULY 7, I9I7."

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R.G.AVER1LL AND C. H. VTOMLINSON.

MULTIPLE ELECIRIC A1B AND CAR COUPLING.

APPLICATION FILED LuLY 1. 1917.

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, REX G. AVERILL AND CHARLES H. TOMLINSON, OF MANSFIELD, OHIO; SAID AVERILL ASSIGNOR 0F ALL HIS RIGHT TO THE OHIO BRASS COMPANY, OF MANSFIELD, OHIO,

A CORPORATION OF NEW JERSEY.

MULTIPLE ELECTRIC vAIR- AND CAR COUPLING.

Application filed July 7, 1.917. .Serial No. 179,141:

T 0 all ctv/0m t mcg/ concern Beit known that we, REX G. AVERILL and CHARLES H. ToMLINsoN, both citizens of the United States, residing at Mansfield, in the county of Richland and State'of Ohio, have invented certain new and useful Improvements in Multiple Electric Air and Car Couplings, of which the follmvingr is a specification.

This invention relates to a fluid pressure 4 and electric controlledv and operated appa# lationto thel car couplers and the car cou pling airlines; Fig. 3 is a front view of one of the electric couplers; Fig. 4 is a sectional view of an electric coupler with its multiple contactor retracted; Fig-5 is a side elevation of 'one lof the electric couplers; Fig. .6 is a plan View witlrthe electric co-ntactor retracted; 'Fig'. 7 is a plan View of a bus line switch; Fig. 8 is an end View, partly insection, of the bus line switch; Fig. 9 isa sectional View of the uncoupling Valve; Fig.

l() is a sectional View of a check valve; Fig. 11 is a sectional view of the contactor cylin-l der controlling valve; Fig. 12 is a sectional view of the electric coupler door closing mechanism; Fig. 13 is a diagrammatic view of the electric connections of each electric coupler; Fig. 14 is asection'al view of a combined air and electric connection carried by the electric, coupler; Fig. 15 is asection of theend packing; and Fig. 16 is a section yof the interlocking valve.

'The present invention is. intended to be Aapplied-to electric trains orto cars having electric control systems which' .require a number of separate electrical connections v between two coupled cars. The present construction usually comprlses multiple conthereby insuring that a uniform and nector receptacles at each end of a car which yrequu'es that an operator' must step between each pair of cars to be coupled and coni nect the Vreceptacles by means of a flexible multipkx connector having a plug at each end wha-h he inserts into each of the separate receptacles at the ends of the cars.

Specification of Letters Patent. Patnted Sept. 1.920.

This is not only dangerous but takes a-lotiof time, and the contacts are not always `surely and uniformly connected. The present invention overcomes these objections providmg a multiple electric coupler which can be operated from the end of either car upon the impact or connection of th'e car couplers.

T he operationofthemultiple electric connector 1s therefore independent of the type of car coupler used'but it is presumed that with an improved 'system'of this kind a pneumatic couplerwill be usedl which automatically connects, the cars upon the impact of the car `couplers butwhich is, disconnected by thel operation of the fluid pressure. car uncoupler device7 usually a cylinder7 and a plunger movable therein. This multiple electricv coupler is therefore designed and adapted to be suspended just below the car coupler proper and is made in a rectangular or fiat shape so that-it extends equally on both sides ofthe vertical "center line 1n the face of a car-:coupler with a counterpart contacter and receiver on each electric coupler which are wired in par-A allel so that when a pair of electric couplers I are joined theywill make-two electrical connections between leach electric controlfline, Pos1 ti've electric connectlon will be made.

It 1s believed thatthe construction and operation of this invention will be best` understood by explaining generally the operation of the parts by referring particularly to Figs. 1 and 2, and then to explain the detail construction of each contributing part; `upon the impact of a pair of car couplers C the cars. will7 of course, be connected as will also an air brake line A anda reservoir line B which-f constitute the' brake controlling systems of the connected parts. Air fromthe reservoir lines therefore f y passes between the couplers and through piping I) and into door cylinders E of each electric coupler,`thereby opening the electric coupler doors downwardly as shownin Fig.

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f tacts H1 on the faces ofvboth of the electric matic valves 1 in both electric couplers al-` couplers to a ground connection in the car opposite that from, 4which the switch is closed, lthereby raising the electro-pneu@ lowing air to pass through the electroypneumatic valves into plunger cylinders J wrich advancesthe contacter l from both of the electric couplers simultaneously. r1`hese con` l' tactors carry a number of electric contactV .-makers whichclose circuit :connections with corresponding receivers K in each coupler,

ductors. At this time the entire coupling operation has been" completed which consists in coupling the cars, two` main air' lines, a combination air and electric line, theopening of fourair valves andthe doors of the electric couplers, closing two 'bus line switches, and the connection of a plurality of multiple unit circuits and the bus line circuit, as the bus'line is also carried by the contactor K.

v 1n addition to the parts generally referred to Iin the foregoing description, there is an uncoupling valve L the operation of which allows air to flow through an interlocking valve N- controlled by the bus line switch Grand admits fluid under pressure to a plunger cylindercontrolling valve P which also controls theadmission of fluid under pressure through the pipe R .to the uncoupliiig cylinder S of the car coupler. The

voperation of these parts will be described in connectionv with the uncoupling loperation, but first the detailed construction of the several parts will be set forth.

Each electric coupler comprises a casing 1 which is preferably 'rectangular in form and is suspended beneath the coupler C by means of perforatedlugs 2 (see Fig. 3)

through which the rods 3 extend, the rods also passing through a bracket (see Fig. 5) suspended from the coupler (l.- A nut 5 is threaded on the end of the rod and interposed between it and one of the lugs 2 is a 4spring 6 which tends to hold the electric coupler 1 in proper position. i

Each casing 1 is preferably flat in construction so that there will be ample space is suspended. r1`his is one of the principal for it below the car coupler from which .it

tially `flat or wedge-shaped it will not take up too much room below the coupler but -will still Ileave sufficient clearance between the bottom of the electric coupler and the ground. V

At the front end of each electric coupler, is a door`7 which covers the lower portion of the front face of the coupler and extends movable there-in with a plunger rod 10 which presses the door 7 downwardly, opening it, when air is admitted at the other end of the cylinder E. 1n order to return the door the casing 1 is provided at the sides with tubular members 11 (see Figs. 3 and 12) eachof which is provided with a plunger 12 to which one end cfa rod 13 isv pivoted, the otherend of the rod being attachedfas shown inFig. 8, to a bracket 14 at the under side Aof the door 7. 1n each of' the tubularinembers 11 is a spring 15 which tends to close the door 7 asv soon as the upper portion of the door cylinder E is opened to exhaust. The top of each door cylinder E is connected with the main reservoir line By through the tubular connection D between the coupler-end of the line B and its val te 15, as clearly 'shown in Fig. 2. The outer end or coupler end 16 ofthe air line-B is slidable in the depending lugs makes an air-tight connection with a packing gland 19 which comprises inclined washers 20 engaged by a ring 21 and pressed in place by a spring 22 which bears against the seat of valve 15. This valve has a spring 23 tending to hold it on its seat with a guide 24 on one side and projecting guides 25 on the other side which are engaged by the end of the ymovable member 1G when the -movable member contacts with the corresponding movable member of avcounte-rpart` means of a pipe 26 with an opening Q7 in the door opening cylinder E at such a distance from the top of the cylinder E that its plunger 9 must be entirely down, that is, holding thedoor 7 fluid under pressure will be `admitted through the aperture 27 to the pipe 26. The electro-pneumatic Valve comprises a winding 28 which controls a core 29 having a stem carrying the opposite valves 30 and 31. The pipe 26 `is connected below the lower valve 30 of the valve '1. An air -vcnt in open position before vsa incarica l ing cylinder J in both couplers at the same time. When the valve 31 is unseated by the spring, which occurs, when theoperator releases the push button H, the air in cylinder J exhausts to atmosphere through port 33. In fact", only the bus' line switches and the door `cylinders are held by air,

pressure during operation.

One of these cylinders J is shown in section in FigQ and comprises. a pistonv 35 with arod 36 connected at. its `outer `end to an insulating block which is inclined on its upper face toward 'the end thereof so that the 'outerl end is thinner than its inner end.

Each connector block K l connectors 37 and 38 each provided with two contacts which extend above the inclined surface of the to vof the block, the con-y nectors being su stantially U-shaped in construction and placed one .within the other but insulated .from each other and each pressed upwardly by springs 39 preferably at the Vends of the members. (See Fig. 4). It is .to be'understood that there are a number of these connectors 37 and 38 in-a`row in the upper face of the contactor block K so that as many connections can be made by each 4contactor block as there are separa-te connectors. 'In the retracted position, as shown by F ig.`4, the connectors 37 and 38 are free-from actual connection, but positione'd directly above the outer end of the block,K are two sets of contacts 40 and 41 whichare rigidly held in place by bolt-s 42' or other suitable means andthe lower faces of these contacts are inclined to correspond .with the inclination of the contactor? block and are suitably-spaced therefrom so that only thc rear-ends of the connectors 37 and 38 make electrical connection with the contacts 41 and 40,1'espectively.

On the opposite side of the-vertical center" line are fined contacts 43'and 44, as clearly shown in Fig. 2, so that when a contactor block K is projected from one electric coupler vinto the other an electric circuit will be closed from contacts-41 to contacts 43 by means of connector 37, and from contacts 40 to ^44 by means of connectors 38.

vAt the bottom of each contacto/r block K lisa bus line conductor 45 preferably in the.

form of a leaf conductor fastened at the center. At the bottom of each coupler casing is a fixed leaf contactor 46 against which the conductor 45 bears to make, electrical connection. IVhen the block l2 is retracted the lis provided with.

attachment-of a conductor 68.

tact 46 so that it bridges the contacts 46 between the adjacent couplers.

It should be understood thatit is the incontacts 41`and 43, and 40 and 44, on opposite sides Aof a vertical plane Aor center line of each coupler, so that the contacts vwill be connected in parallel. `This is'indicated by the diagrammatic view shownl by Fig'. 13 in -which it will be observed that the outermost contacts 40 and 44 are connected in parallel and likewise all of the other corresponding contacts.` The object of this invention, as previously stated,is to make a double connection for each conductor 47. The bus line contactors are similarly connected in parallel so that a double connection is made between them, eachcontact 46 being connected to a common terminal 54, as shown in Fig. 6,

slidable, the edge 49 of the receiving guide -being beveled so that thev contactor block K will slide in it more easily.l In order to hold the contactor block K in its "forlward or projected position a guide rod 50 (Fig. 6) is positioned' in the casing-just ltention to connect the correspondingy iXed above the bloc-k and is formed at its forward end with a notch 51. Carried by therblock is a projection 52 in which is a spring-A pressed pawl-53 forengaging the notch 51 and holding the contactor block K in its 'forward or projected position until it is positively retracted by its operating cylinder J.

Carried by each electric coupler is a com- .bined air-and electric connector H', one ofwhich isv shown in detail by Fig. 14. It comprises a 'perforated conductor 57v slidable in a bracket 58 and insulatedv therefrom by insulation-59 with a collar 60 at lone 'end and a spring 61 at the other tending'to force it outwardlylfrom the face of the electric coupler, the collar 60 preventing it from protruding too far. In the outer face of the conductor 57 isa recess 62 in which is a washer 63 for making a fluid-tight connection with a counterpart connector, yand at the rear end is a contact member 64 which has a knob 65 for the attachment of a flexible hose' 66 and a terminal screw 67 for the This conductor 68 is connected to 'one end of the winding 28 of the electro-pneumatic valve I and the other end of the winding is connect- -ed by means of a conductor 69 to a twopole switch` H. which in one position connects the conductor `69 to ground and in the other positionto a sourcey of electrical sup\ 4trical supply will energize both electropneumatic valves which will operate them simultaneously., as previously/explained.

'1n each electric coupler is a plunger cylin-v derA operated valve P, whichjis shown in detail iii'Fig. 11. It is connected to the front end ofthe operating cylinder J by means. of a pipe 70 and is connected by means of the tubular combination `air and electric connector H Also connected to the same end of the valve as the tubular member66 is a pipe 71 which leads tothe interlocking valve N. At the" other end of'the valve P is a tubular connector 72 which opens into the cylinder J at a distance from the rear end thereof slightly greater than the thickness of. the piston so that when this piston is fully retracted lluidv under pressure can pass through the tubular member 72 yinto the valve P. lVithin the valve is a central chamber 73 which is connected by means of a tubular member R' with the uncoupling cylinder S. At each side ef the chamber 73 are partitions forming seats for valves 74 and 75 to separate the chamber 73 from the chamber-s 76 and 77 respectively. The valves 74 and 75 are mounted on a stem 78 so that when one valve is seated the other is unseated and a spring 79 tends to continuously seat the valve 74 leavingthevchamber 73 connected with the chamber 77 through the space surrounding l the outer end. lt' carries valves 103 and 104 the valve stem 78. In this chamber 7 7v is an atmospheric passage 80 and also carried by the valve stemv is a valve 81 which closes the chamber 77 from a chamber 82 at the end of the valve P, and with this latter" chamber 82 the tubular members 66,70 and 71 arev connected. It is obvious that when '.-.glluid under pressure is admitted to the '"5'. the pressure of the springs 79 to seat the 4'chamber 82 the valves will be moved against y valve 75 vand to unseat the valve74. This 'will open the pipe R to fluid under pressure from the cylinder J when the piston 35 has been 'retracted sufficiently to uncover the tubular member 72 so that fluid under pressure can flow past the valve 74. This insures that the contactor block K will be retracted before the uncoupling cylinder S can be energized by fluid under pressure.

Vhen fluid under pressure is admitted to thetubular connectionl) upon the impact V of the couplers it Hows directly through the check valve F, which is shown by Fig. 10. This valve has a chamber 83 with which the tubular connection D is connected; a chamber 84 which is connected by means of a pipe 85 with thecylinder of the. bus line switch G; and a chamber 86 which is connected at one end bymeans of a pipe 87 connector 66 with the direction.

with the uncoupling valve lL, and at a distance from the end has a' pipe 88 for exhaust 1 91 to the atmospheric outlet 88. Fluid under pressure admitted to thechamber 83 will open the valve 90 and close the valve 9,1 thereby admitting fluid under pressure to the pipe 85 and to the bus line switch cylinder. 1n the chamber 86 is a valve 92 having a stem 93 which projects adjacent the .valve 91 and.' with a spring -94 tending to press valve 91. The admission of fluid under pressure tothe pipe 87, however, will compressspring 94 moving the stem 93 against the valve member 89 and if the valve 90 is notalreadyclosed the additional pressure produced by the .valve 92 will close it, there'- by opening the pipe 85 and the bus line cylinder to exhaust around the valve 91 through the pipe 88.

An uncoupling valve L is located in each car 'and comprises a housing (see Fig. 9) with a middle chamber 95 and end chambers 96 and 97. Communicating with the middle chamber is a check valve 98 having a seat 99- and a spring 100 which normally lpresses the valve 'from its seat but prevents a vsudden rush of fluid under pressure in the other A valve stem 101 extends from one end of the housing and has a knob 102 -at on opposite sides of the chamber95 so spaced apart that when one valve isseated the other is unseated, a spring 105 normallyseating the valve 104 in the chamber 97 A packing gland 106 surrounds the stem 101 and'packing members 107 are inclined forwardly toward the stem making an angular contact with it. They are held in this position by means of a ring 108 and spring 109 which bears against the ring. Connected to chamber 96 is a pipe 110 which forms an atmospheric exhaust, and connected with chamber 97 isa pipe 111 which is connected to the pressure reservoir or the source of fluid pressure supply. When the knob 102 is pressed fluid under pressure is admitted* from the pipe 111 through thechambers 97 and 95 and through the valve 98 to the pipe 87 which connects the uncoupling valve both with the check valve 'F andthe interlocking valve N.

The bus line switch G comprises a rotatable drum 112 (see-Figs. 7 and 8) which carries a gear 113 at one end with which a rack 114 meshes. This rack is a prolongation of a rod 115 having a piston 116 at the other end movable ina cylinder 117. The pipe 85 from the check valve F is connected to the cylinder 117 at its endand tends to force the "the valve in a direction away from the vThis motion isopposed by aspring 118 disposed within the cylinder 117 which is operative t 'return the piston toits original po- Isition, and consequently to rotate the drum `112 as soon as pressure is relieved from the end of the cylinder.

. Adjacent the cylinder 117 is the interlocking valve N (see Figs. 1 and 16) which is connected to the pipe 87 which extends from the uncoupling valve L'to the check valve F. The interlocking valve also has a connection with the pipe 71 which extends to the plunger operating valve P. This valve -N comprises twochambers '119' communicating with the pipe 71, and 120 communicating with the pipe 87. In lthis latter chamber is a valve 121 having a seat therein and a sternv 122 which extends through the other cham-l ber 119 and out of the end of the valve with a spring 123 tending to hold the valve on its seat in the chamber 120. Carried by the rack 114 is an arm 124 which is adapted to engage the extremity of the stem 122 when the rack is retracted, thereby raising the valve 121 from its seat. against the tension of spring 123 and allowing a free passage for fluid under pressure from the pipe 87 through the valve to the pipe 71.

'The bus line switch proper comprises two terminals 125 and 12.6 which have connected contacts 127 and128 respectively, adapted to bear against the drum 112. A portion of the drum surface is provided with insulation 129 and the' other portion with a connecting conductor 130 which makes electrical connection between the contacts 127 and 128 when the drum is in thev position caused by the outward movement of rack 114. In the operation of this apparatus the bus line switch is always opened beforethe electric couplers are separated, for this device is designed and intended to be operated to the uncoupling position while the cars are standing still, and while the main platform motor controllers are,ot1 course, open circuited. In fact, no current is lowing through the bus line to the motors. But all multiple unit cars have' a' motor driven compressor, lighting circuits, and inl some cases heating circuits, so it may happen that when the bus line switch is opened, a comparatively small current may be flowing through the bus line conductor of the electric coupler, which may amount to 50-amperes of a 600 volt current. For this reason a magnetic blow-out is provided in connection with the bus line switch to handle this current as an auxiliary to the bus line contactors. A circuit breaker of sufficient capacity1 to handle .the motor current, at the same time, which very often exceeds 1000 amperes at 600 volts, would cost as much as the entire electric coupler.

The magnetic blowout comprises a contact 131 carried by the drum 112 and 4connected with the contact 130 which is in connection v.with one of the contacts 127 at' all times, it

being moved into connection with the other contact 128 in closing the bus line switch. A magnet ,winding 132 is mounted at the side of the .drum 112'adjacent the contact 128 and has poles 133 and 134 which extend adjacent the drum with a terminal 135 between them forming one end of the electrical connection for the winding 132, the other end of the magnet winding 132 being connected directly to the terminal 128. When the bus line switch is closed the contact 131 carried by the.drum makes electrical connection with the terminal 13,5 between the poles 133 and 134. When the bus line switch is opened, the separation of the Contact 131 from the contact 135 will tend to cause an arc. If any of the energized circuits of the electricicoupler happen to he receiving current the magnetic blowout thereupon prevents destructive arcing by the action of the magnetic lux between the poles 133 and 134.4

There are )some accidental conditions which must be taken care of, such as; accidental uncoupling of the car couplers proper, or failure or breaking of the air pipe line, or the compressor, while the cars are moving and taking 1000 amperes or more current, as it is1 ontemplated-that all the current may be taken from one trolley pole or one third rail shoe for the operation of the entire train.

To provide for these accidental cases,.it will first be observed that the bus line switch has two positions; an open position and a closed position. tion there is danger of a wrong connection or position of the controlling parts and therefore the drum'is provided with contact plates 137 and 4138, both of which are adapted to make connection between spring contacts 139 and 140 fixed at the side of the gized when the contacts 139 land 140 are bridged by the plates 137 and 138; that is, when the bus line switch is either entirely open or entirely closed. In any other position the circuit breaker is opened.

In further explanation of the circuit breaker, it may be said that every car equipped for multiple 'unit trainfoperation has a switch group interposedl between the controller and motors (not shown in this case) and in this switch group is a line switch or circuit breaker of sufficient capacity to handle any current required by the motors. This circuit breaker is represented by the breaker 142 in Fig. 1., and as shown has an electrically operated catch which is controlled bv a winding 162. It is intended In any intermediate posithat the circuit breaker be held in when current flows through the winding 162, so the the pipe represented by A in Fig.' 2, has a constant pressure which holds triple valves on the various cars of the train closed, so

. that no air can pass from an auxiliary reservoir into a brake cylinder unless the operator exhausts some of the air in the brake pipe line to the atmosphere, which causes the triple valves tofmove and permits the air from the several auxiliary cylinders to pass into vthe brake cylinders and apply the brakes. This same loperation occurs when a train breaks in two and opens the brake line.

This is why brakes of this type are called automatic brakes, and this is the reason a self-closing valve cannot be usedv on the brake air line A, as it would prevent the escape of air (if thecouplers parted acci dentally), which 4is necessary to apply the brakes automatically.

Tt will be observed therefore, upon reference to Fig. 2, that the brake line A has a valve 143 opened by a movable portion 144 of the brake pipe which operates similarly to the valve 14 and the movable mem- Yber 16 of the reservoir line B. This valve 143- has centering wings 145 for raising it from its seat by Contact with the member 144 and on the opposite side it has a stem 146 which extends into a cylinder 147 and carries a piston 148. Connected to the end of this cylinder is a pipe 149 which con- The packing proper comprises a piece of' stitutes an ,extension of the pipe R (Fig. 1) which leads to the uncoupling cylinder S. Upon impact of the couplers the valve 143 is positively opened and is held open as long as the cars are coupled.A As soon, however, as the cars are uncoupled fluid under pressure is admitted through the pipe 149 tending to seat the valve 143.

Tn the face of each electric coupler'is a packing 150 which extends from the top -downwardly at the sides of the front of the electric coupler casing projecting slightly from the face of the coupling so that when two adjacent electric couplers are connected the packings will abut forming a water-tight connection to protect the contacts and contact makers. The enlarged section shown by Fig. 15 illustrates 'the manner of securing the packing in place.

iexible hose or similar material which is provided with perforations 151 through which the head 152 of a Cotter pin is inserted and then a wire 153 inserted through the heads of the cotter pins holds them in place. The projecting ends of the Cotter pin are then inserted through an opening 154 in the wall of the Casing and the eX* tremities 155 are;r bent over on the inside thereby holding the packing in place, preferably in a groove 156 in the face of the lcasing provided for that purpose.

As clearly shown in Figs. 3 and 5, the rear of each Casing is provided with a projection 157 which fits under the reservoirA pipe line B and forms an outlet for the bus line Cable and also for the several electrical conductors 47 which are also connected in the vform of a cable for economiaing space.

A diagrammatic arrangement vof the bus line connection is shown in Fig. 1 andcomprises a bus line conductor 158 which is connected through a circuit breaker 142 to one of the terminal lugs 125 and is then connected by lthe bus line switch through the othei` terminal 126 with a ,conductor-159. In the Coupler the conductor 159 is divided into two Conductors 160 which terminate in contacts designated by the reference numerals 46 in the detail drawings (Figs. 2,

and 4).. The terminals of the conductors 16() are connected by a Contact maker 161 which corresponds to the bus line connector .w45 shown in Figs. 2 and 4. The circuit for controlling each circuit breaker 142 comprises the conductors 141 which are connected to the contacts 139 and 140, one of the conductors leading to a positive source.

of electrical supply and the other conductor leading through an energizing winding 162 for the circuit breaker and thence to ground. From this it is obvious that the bus line switch will allow the circuit breaker to be closed only when the contacts 137 or 133 are in proper position and that therefore the bus line can be Connected through the electric couplers only when the contractors K are both advanced and when the bus line switches are both closed. 0f Course, as soon as either bus line switch is opened the bus line receives no current and the subsequent 'separa-tion of the electric couplers will cause no sparking at the coupler terminals.

The operation of connecting electric couplers was briefly described at the beginning` of thespecifi'cation. Upon the impact of the couplers C the valve 15 of the reseri'foir line Band the valve 143 of the brake line A are opened.- This allows fluid under pressure from one or both of the car pressure reservoirs to pass between the couplers which admits fluid under pressure through the pipe D to the door cylinders E which open the door 7 of both couplers. `When the piston 9 is down, as shown in Fig. 2, the aperture 27 is uncovered which allows fluid under pressure to pass by way of the pipe 26 to the electro-pneumatic valve I'. In each electro-pneumatic valve thevalve 31 is normally held open and valve 30 closed by spring 32 so thatfluid under pressure in the pipe34 escapes through the atmospheric outlet 33. As soon, however, as both electropneumatic valves are energized by the closing of one of the switches H the valves 31 are closed and the valves 30 are openedwhich admits fluid under pressure from the pipes 26 through the pipe 34 which communicates, with the opening 32, to the rear .spring 92 andr through pipe 85 to the bus end of the plunger cylinders J. 4This projects both contacter devices K making. the

severalelectrical contacts in parallel also connecting the bus lines in parallel. At this time fluid under pressure cannot pass through the plunger cylinder operating v-alve P for evenif iiuid under pressurey is admitted through the pipes 72 to the chamber 7 6 of the valve P the valve 74 is closed. Fluid pressure is admitted, however, to the chamber 83 of the valve F and thence it passes through the valve compressing the line cylinder 117 compressing the spring 118 and operating the bus line switch drum 112. lhen the bus line switch plunger rod 115 is retracted the valve 121 of the interlocking valve N is open but no fluid under pressure passes through it for the reason that the uncoupling valve L is closed and the check valve F preventsthe passageof fluid under pressure to the valve N at all times. As soon,however, as the bus line switch drum is operated to close the switch. the rod 124 is moved out of engagement with thestem 122 of the valve Nwhich allows the valve 121 thereof to close under theaction of its spring 123. v

Under vthese conditions the contactors K will be locked in position by the spring. pressed pawls 53 which coperate with the notches 51 of the rods 50. the doors 7 will lbe held? in open position by constant pressure from the reservoirI pipe D, but this fluid under pressure cannot pass the electropneumatic valve, unless the push button 'H is operated. Likewise one of said electropneumatic valves carlnot be operated unless connected to another of the same type, as there would be no ground connection.

Uncoupling: In order to effect'the uncoupling operation, an operator Ain-either one of the cars presses the vknob 102 of the uncoupling valve which closes the valve 103 and opens the valve 104 allowing fluid under pressure to passfrom the pipe 111 which is connected to the .source of fluid pressure supply past the valve 104 and past the check valve 98 into the pipe 87. his pipe 87 leads both to the interlocking valve N and to thecheck valve The interlocking valve is closed, for the valve 121 is' `held-`on itsseat-.by the .spring 123'- so the piston 92inwardly until its stem 93 opens the valve 91 and closes thevalve 90. This" opens the bus line cylinder 117 to exhaust'. throughJ the pipes 85, valve 91, chamber 86- and exhaust pipe 88 whiclrallmvs the spring 118 to retract the plunger 115 and the operating rack 114 which moves the contact plate 138 out of engagement with the con-y tacts 139 and 140 thereby'opening the bus lines circuit breaker and the ,bus line switch. As Asoon as the rack 114 is retracted the rod 124 engages the stem 122 of the interlocking valve N, thereby opening its valve 121 and allowing fluid under pressure to pass from the pipe 87 through the interlocking valve to the pipe 71 which is connected to the forward end ofthe plunger cylinder operating valve P. then passesimmediately through the pipes 66 ofthe combined air and electric con,- nectors H and from the forward ends of both of the plunger cylinder operating valves P to the forward ends of the plunger cylinders J. The admission of fluid under aressure to the chamb'er.82"of each valve presses the stem 78 rearwardly thereby opening the 'valve 74 and closing the valve 75. As soon as the plunger 35 in Fluid under pressurey Ieach plunger cylinder J- is sufficiently retion is .effected simultaneously in bot-h cars.

Fluid underpressure also is conveyed by means of the pipes 149 to the chambers 147 at the ends of the brake lines A and there acting upon the pistons 148 the valves 143 are Vbotlfclosed. A

After this action' both of the contactors K are retracted, the bus line and the other electrical connections are opened, the bus line'switchesare opened Aandthe electric couplers are in condition to be again connected withthe same or different cars.

lith this construction it is obvious that the. coupling 4and uncoupling actions are both completed entirely from within the cars, and from either car.; the pperations take place in regular order and are all properly safe-guarded; it is impossible to un'- couple mechanically before the electrical uncoupling is' effected and the operation is therefore entirely safe and fool proof..

As the cars part it is apparent that the valve 15 of' the reservoir line B closes automatically by the action of its spring; the brake line valve is closed as before described, and thus the check valvesin both the reservoir and brake lines of both, car couplers areclosed. rI`he air between these valves will exhaustto the atmosphere, and likewise the air which is in the door cylinders E of both. electric couplers, allowing the doors 7 to close by the action of the springs at the side of the electric couplers..

The air will also exhaust from the pipe D to pler to uncover said front end.

2. In a coupler of the class described, a horizontal casing having a door at the front end pivoted on an axis behind the longitudinal center of the casing to permit said door to swing into open position after said coupler has been brought into coupled position.

3. In a coupler of the class described, a casing having a single door at Vone end pivoted at the rear of the longitudinal center ofthe casing, and a fluid pressure device intermediate the door and its pivot point for opening the door.

4. In a coupler of the class described, a casing having a single door at one end pivoted at the rear of the longitudinal center of the casing; a fiuid pressure device for opening the door, and means for closing the door.

5.. In acoupler of the class described, a horizontal casing having a door covering the front'of the casing, which is pivoted at the rear of the longitudinal center of the casing and swings downwardly below the casing in 'A opening, a iiuid pressure device for opening y wardly below' the casing, a 'fluidpressure the' door, and resilient means for closing the door.

6. In a coupler ortneclass described, a horizontalcasing having adoor at the front Athereof plvotedfat the rear of the longitudinal center of'tliey casing and opening downdevice for opening the door, and springs at the sides of the casing for closing the door.

7. In a coupler of the class described, a downwardly opening door, fluid pressure means for opening the door, a projectable contacting device and a fluid pressure connection which is operated upon impact with another coupler to operate the door opening device independently of said contacting device.

8. In a coupler of the class described, the

lcombination with a pivoted door therefor, of

a fluid pressure device for opening the door, a projectable contacting device, a fluid pressure connection projecting from the face of the coupler and operated upon impact with a counterpart coupler to open a fluid pressure connection to the door opening device for operating the door independently of said contacting device.

9. The combination with a pair of counterpart couplers each having adoor which opens downwardly, of a fluid pressure device in each coupler to open the doo.r,a contacting device projectable from each coupler door, and a fluid pressure line having a por- Ition which extends beyond the face ofthe coupler, and a valve operated by said portion upon impact with a counterpart portion to openconnection to the` fluid pressure device for opening both doors upon the impact of a pair of couplers independently of said contacting device.

10. In combination, two cars'having counter-part couplers, a reservoir line connected to a suitable source of fluid pressure supply having a movable portion projecting beyond the face of the coupler and a valve operated by said movable portion, a door for each coupler, a fluid pressure device for operating the door, a contacting device projectable from each coupler door, and a tubular connection from'the fluid pressure device to the movable portion of the fluid pressure line between -the valve and the protruding end thereof whereby both fluid pressure devices are energized to operate the doors free from engagement by said contacting devices as soon as the two couplers are brought together.

ll. In a coupler of the class described, a casing having portions disposed on opposite Sides of a vertical plane, and a movable contacter in the c asing on one side of the said plane having a plurality of contacts arranged on the upper face of the contacter in parallel rows, said contacter being arranged to make a different connection by means of each contact of each row.'

12. In a coupler of the class described, a movable contacter having an inclined upper face and a plurality of contacts mounted at different elevations in the said inclined face.

13. In a coupler of the class described, a

movable contactor and a plurality of electrical connectors with contacts having in clined contact faces at different elevations in the upper face of the contactor.

14. ln a coupler of the class described, a

movable contacter having one face inclined to the 'plane of-movement of the/contacter, and a plurality of electrical contacts at different elevations in the said inclined'face.

l5. In va coupler of the class described, a projectable contactor having a` face inclined to its plane of movement and electrical conintese? nectors mounted in the inclined tace' tliereo'i", each having two contacts one at a different elevation than the other. y

I6. In a coupler ot the class described, a p rojectalfile contactoi' having an upper 'tace inclined to the plane of movement thereoi, and a plurality of'spring pressed electrical connectors disposed in the inclined tace 'oi' the contacter` each connector having two contacts at different elevations above the plane oi movement ot the contacter.

.17. In a coupler ot the class described, a movable contaitor having its upper tace inclined to the plane of movement thereof, and a number of electrical connectors arranged in pairs one within the other and each connector having two contacts spaced apart and located at different distances above the .plane ot movement of the contactor.

.ment thereof, a plurality of electrical connectors arranged in pairs in the line of movement of the contactor, one connector having its Contact projecting above the incli-ned face ot the contacter at a different distance from the end than the other.

20. In a coupler of the class describedra movable contacter having an inclined face and plurality7 of electrical connectors a1'- ranged in pairs in the line of movement of the contactor, each 'connector having two contacts and the contacts of onepair being positioned between the contacts of the other 22. In a coupler of the class described, a`

1 projectable contactor having a plurality of electrical connectors arranged in transverse and longitudinal alinement each connector comprising two contactsand the contacts of each transverse line bein@ at the same elevation but different lthan the elevations of the other transverse lines of contacts.

23. In a coupler of the class described, a projectable contactor having an inclined up per tace' and a plurality of electrical con nectors arranged in pairs in transverse alinenient, each connector having two contacts which project slightly above but conform in inclination to the inclined face of the contactor. y

2e. in a coupler ot' the class described, a pi'ojcctable contacter having an inclined upper taf, a plurality ot pairs of electrical connectors transversely alined in the upper tace ot' the coupler, and connectors each having contacts which normally project above the. inclined tace but conform iii inclination thereto, and means tor engaging the contacts of the connectors when the contactor is projected forwardly.

In a coupler ot the class described, a movable contacter having an inclined upper face, a plurality of spring pressed electrical. connectors mounted in the inclined tace of the contact-or and each having two contacts which project above `but conform' in inclination to the upper face of the plate, and means also conforming in inclination to the inclined tace of the contactor for encontact of each connector when the contacter.

is projected forwardly, and means atrthe other side of the vertical center line for engaging the outermost contact oan electril cal'connector when a counterpart contactor is forwardly projected. y

27. In combination, a pair of couplers of the class described each comprising a movable contacter on one side of the center line having a plurality of electrical connectors each comprising two contacts 'one at a different transverse elevation than the other, a plurality of fixed contacts ,adjacent the contactor Lto engage the rearmost contacts of each connector when the contactor is forwardly projected, a plurality ot' fixed contacts at the other side of the center line of the coupler to 'engage the outermost contacts of each'connector when the contactor' of the counterpart coupler-is projected forwardly, and electrical connections between the respective contacts to make a double connection between the couplers -for each corresponding pair oi' the electrical connectors.

28. In a coupler of the class described, the combination with a proj ectable contactor having a face inclined to the plane of projection, spring pressed electrical connectors mounted in the inclined lface of the contacter, each connector having a pair of contacts extending above but conforming in inclination at the outer end to the inclined tace of the contacter, and contacting means te engage the contacts of the connectors and to press them substantially flush with the' inclined -face of the contacter.

29. In a coupler of the class described, a movable contacter having .one face inclined to the plane of movement ot the contacter, a plurality of electrica-l connectors mounted in the inclined face of the contacter and having contacts at different elevations from the plane of movement, mieans for engaging the said contacts and a single electrical conn ector carried on theother face of the co ntaeter to make a bus line connection.

30. A pair of counterpart couplers each comprising a projectable contacter having one face parallel with and the opposite face inclined to the plane of movement of the contacter, a plurality of electrical connectors mounted in the inclined face of the contacter, each one making aseparate elecltrical connect-lon between the counterpart couplers, a single 4bus line connector mounted on the parallel face ofv each contacter,

and electrical connections in .each coupler for making double electrical connections for each of the separate circuits served by the separate" connectors and double bus line connection, when the contactors of both couplers are forwardly projected.

3].. In a coupler of the class described, a pivoted front door, a fluid pressure door opening device. a movablev contacter, means i for projecting'it forwardly, and means to prevent the projection of the contacter until the door has been opened by the door opening device. 32. In a coupler of the class described, the combination with .a pivoted door, of a fluid pressure `door opening device, ai mov,- able contacter, a fluid pressure device for projecting it forwardly through the door, and means operative at will to project the contacter after the door has been opened by the door opening device. ,Y

33. In a coupler of the class described, a pivoted door, fluid pressure means for opening the door, a fluid pressure connection to 'energize said means upon contact with anject the contactor'at will when the door is open.

terpart couplers each having a pivoted door, of a fluid pressure device in each coupler to open the door, a fluid pressure line engageable upon impact of the couplersto operate the door opening device, projectable contactors in each coupler and a device to' prevent the operation of the projectable contactors until after the doors are opened and then operable at Will to project the contactors simultaneously.

35. The combination with a pair ofcoun ter part couplers each having a pivoted 34. The combination with a pair of counlfront door which opens dovvnvvardly, a fluidv pressure doory opening device, a fluid prespressure connection to the contacter, pro

jecting means after thel doors are opened, and an electrical circuit Which may be closed through both couplers to energize both electro-pneumatic devices for Aprojecting the contactors simultaneously.

36. In a coupler of the class described, a fluid pressure door opening device, a movable contactor, a fluid pressure projecting device for the contacter and an electro-pneumatic valve for connectingv the door opening device with the projecting device, the connection'vvith the deor'opening device being hopen only When the door opening device is in the door opening position.

37. In a coupler of the class described, the combination With ya movable door, of a door opening cylinder and plunger, fluid pressure means operable subsequent to the operation of the dooropening device, and means forl preventing the operationof said fluid pressure means until after thedoor is open, said llast named means comprising a tubular connection with an opening into the door opening cylinder just above the plunger thereof when theplunger liolds'tlie door entirely open.

38. In a coupler of the class described, a door opening cylinder and a plunger movable therein, an electro-pneumatic valve having a tubular connection with ythe door opening cylinder at a distance substantially equal te the thicknessef the plunger from the end there-ef, to insure the complete operation ofA the door opening cylinder when the electro-pneumatic device is operated.

39. In a coupler of the `class described, a movable door, a door opening cylinder and plunger therefor, a contacter 'movable through the door opening, a fluidpressure device for moving the contacter through the opening, an electro-pneumatic valve havi-ng a tubular connection with the door opening cylinder at a distance from the end thereof substantially equal to the lthickness of the plunger and With an atmospheric outlet, the said electro-pneumatic valve being operable to close the .atmospheric outlet and to admitflui-dunder pressure from the door opening cylinder te the fluid pressure device for projecting the contacter.

' 40. -In a coupler of the class described, the combination with a movable contacter, of spring pressed connectors carried thereby` fluid pressure means for positively moving the contacter in both directions, a bar eX- tending parallel to the plane of movement of the contacter having a notch therein, and

so.l

a spring pressed pawl carried by the con- .tactor for engagement in the notch but disengageable therefrom when the contactor is positively moved. al. In a coupler, a movable contactor device, a bus line connector carried thereby, fluid pressure means for operating the contactor, bus line switch and fluid pres sure means for closing the switch before the bus line connection is made by the contactor.

42. In combination an electric coupler comprising fluid pressure means operated upon impact of the coupler for opening the coupler, a fluid pressure projectable contactor, a bus line connector carried by the con-l tactor, a bus line switch operated upon impact of the coupler, and means for operating i the contactor after impact of the coupler.

43. Incombination a couplerl having a movabledoor, a fluid pressure door opening devlceJ a fluid pressure projectable contactor operable after said device, a bus line connector carried bythe contactor, a bus line switch, fluid pressure means for closing the switchandf`a manually controlled' fluid pressure device for operating the projectable contactor to complete the bus line connection.

44,'In combination, an electric multiple connector comprising a movable contactor, a

bus line vconnector carried thereby, a bus Aline switch, a' bus line circuit breaker, and

a controlling circuit for the circuit breaker comprising means carried by `the bus line switch for completing the said circuit only when the bus line switch is entirely open or entirel closed.

45. n combination, a coupler having a projectableeontactor, a bus line yconnector carried thereby, a bus line, a bus line switch, fluid pressure means for controlling the contactor, fluidpressure means for controlling the bus line switch, and other fluid pressure means for preventing the retraction of the bus line contactor until the bus line switch has been opened. l

46. The combination with an electric coupler comprising a projectable contactor, a bus line connector carried thereby, a bus line switch, a bus line connected through said switch and'v said connector, a circuit breaker for said bus line, and an energizing circuit for said circuit breaker comprising a pair of contacts carried by the bus line switch for completing circuit connections only when the bus line switch is entirely open or entirely closed.

47. The combination with a coupler of the class described, comprising a projectable contactor, of a bus line connector carried therev b v` a fluid pressure device for operating the contactor, a bus line switch in circuit with the connector when the contactor` is projected, fluid pressure means for closing the bus line switch, and other means for opening the bus line switch.

48. kThe combination with a coupler of the class described, comprising a projectable contactor, of abus line connector carried thereby, a fluid pressure device for operating the contacter, a bus line switch in circuit with the-connector when the contactor is projected, fluid pressure means for Aclosing the bus line switch, and fluid pressure means for preventing the retraction of the contactor until the bus line 4switch is opened.

49. The combination with a `coupler ofl the class described, comprising a projectable contactor, of a bus line connector carried thereby, a fluid pressure device for operating the contactor, a bus line switch in cir- Vprevious tothe retraction of said contactor.-

50. In apparatus ofthe class described, a bus line, a fluid pressure projectable connector for the bus line, other means for controlling thebus line to protect said projectable connector including a bus line switch comprising. afluid pressure operating cylinder` and a movable plunger therein, and a spring for retracting the plunger'when fluid under inder.

5l. In apparatus of the class described, Aa bus line, a fluid pressure projectable connector for the bus line, other means for controlling the bus line .to protect said projectable connector including a bus line switch comprising a rotatable drum, an operating plunger and cylinder therefor and a check valveI connected to the cylinder for admitting fluid under pressure thereto and for eX- hausting said fluid under pressure therefrom. v

52. In apparatus of the" class described, a busl line, a fluid pressure projectableconnector for the bus line, other means for controllingthe bus line to protect said projectable connector including a bus line switch comprising a cylinder and a plunger movable therein, means for admitting fluid under pressure to thecylinder to close the switch, said means having an atmospheric.

' end chamber connected to 'a source of fluid pressure supply, another end chamber havclosing the switch, a spring for opening it, a check valve for admitting fluid under pressure to the switch closing means, an exhaust for' fluid under pressure -from. said switch closing means, and an interlocking valve to prevent the operation of the said contactor in breaking the bus line circuit before the switch is opened.

55. rllhe combination with a coupler of the 'A class described comprising a movable contactor, a fluid pressure device therefor, a bus line connector carried by the contactor, a bus line, a switch for the bus line comprising av fluid pressure cylinder and plunger for closing the switcli,'a` spring forretracting vthe plunger, and anv interlocking valve for preventing the admission of fluid under pressure to retract the contactor until the bus line switch 4is opened byfsaid spring.

56. The combination with a coupler of the class described comprising'a movable contactor, a fluid pressure device for moving it positively in both directions, a bus line, a bus line connector carried by the contactor, a switch for the'bus line comprising al cylinder and a plunger movable therein, means for opening the cylinder to `pressure and to exhaust, an interlocking valve connected to the fluid .pressure means for retracting the contactor, and means in connection with said plunger to prevent the opening of said interlocking valve until the bus line cylinder is opened to exhaust, allowing its spring to retract the plunger.

57. lin apparatus of the class described,

1 a bus line switch comprising a cylinder and a plunger movable therein, a spring for retracting the plunger, a check valve for opening the cylinder to fluid under pressure or to exhaust, an interlocking valve having means engageable by the plunger when it is retracted for opening the valve, and an uncoupling valve forv admitting fluid under pressure to the check valve thereby opening I the cylinder to exhaust. and subsequently admitting fluid under pressure through the interlocking valve.'

58. The combination with a coupler of the class described, comprising a projectable contactor, a fluid pressure device for moving the contactorv positively in both directions, a bus line, a. bus line connector carried by the contactor,' a switch for the bus to the retractingend of the contactor oper-4 ating device,an uncoupling valve for admitting fluid under pressure both to the interlocking valve and to the check valve for operating| the said second plunger therein, whereby the said cylinder is opened first to exhaust and then fluid under pressure is admitted through'the interlocking valve to the forward end of said contactor operating device for retracting the-contactor after the said switch is opened.

59. ln a coupler-of the class described, a

multiple electric connector comprising a fluid pressure operating device, a bus line` joined in partby said connector, a bus line switch for said connector having a fluid pressure operating device, an uncoupling valve for admitting fluid under pressure to operate the said connector, and an interlocking valve controlled by the bus line switch in uncoupling to insure its operation before the said connector is operated.

60. A car and electric couplin comprising a paiirof couplers, one for eac car end, and each including in combination a car couplerl a multiple electric coupler comprising a projectable contactor, a fluid pressure device for operating the contactor of each of the couplers every time they are coupled, fluid pressure means for uncoupling the car coupler, and a Valved connection for preventing the operation of the said means until the contactor has been retracted.

6l. A car and electric coupler comprising a reservoir line having a valve which is opened upon impact with another car coupler, an electric coupler comprising a pivoted door, a-projectable contacting device and a fluid pressure device for opening the door independent of the contacting device connected to the said reservoir line for automatically opening the door` upon impact of the coupler with another coupler.

62. rlhe combination with an electric coupler having a pivoted door, and a projectable contacting device, of a fluid pressure door opening device, a reservoir line having connection with said door. opening device f 125 and having a valve which opens the reservoir line to the door opening device without engagement by the contacting device upon impactof two couplers, and a spring for closin said valve when two couplers are separate 63. ln'a coupler ofthe class described, la

combination air and electric connection comprising a tubular conductor, Wh1ch normally 'projects beyond the face of the coupler, a tubular connection for the inner end thereof and an electrical contact connection at'the -inner end thereof.l

t4. In `acoupler of the class described, va

. combination `air and electric connector comprising a tubular conductor having one end normally spring pressed beyond the face of the lcoupler, a flexible tubular connection connected at the other end, and an velectric terminal member vat the other end for an electrical connector.

65. In a coupling of the class describedha pair. of couplers each comprising a project` able contactor, a-fluid pressure device for positively moving the contact'or-in'both di- .,rections, the contactors of the couplers mak ing double connections,a valve foradmitting fluid under pressure to retract the connector, a fluid pressure uncoupling device, and a tubular connection therefrom to said valve, the valve preventing the operation of said device until' the contactor is re tracted.

66. In a coupler of the` class described, a projectable contactor, a cylinder and plunger for operating the contactor, means controlling theadmission of fluid under pressureto one end of the cylinder, and a separate fluid pressure device having a movable plunger for admitting fluid under pressure i to the other end of the cylinder.

6T. A pair of'car couplers eachy comprislng a movable contactor, a fluid pressure device for advancing the contactorA into the other coupler and for retracting it, an electro-pneumatic device for controlling the advancement of each contactor, a fluid pressure device for controlling the retraction of each contactor, anda combined air and electric connector for each coupler having a tubular connection With the last named fluid pressure device and for completing a circuit through the electro-responsive device Whereby the said contactors in adjacent couplers are advanced and vretracted simultaneously.

v"58. A pair o'f 'counterpart couplers each comprising. il movable'contactor, fluid pressure devices for advancing and retractingA the contactors, a combined air and electric connection, means comprising electro-responsive devices energized through said connection to actnate said fluid pressure devices for simultaneously advancing both ofthe contactors, and means comprising fluid pressure connections through said combined air and electric connector for simultaneously retracting both of said contactors.

69. In a coupler of the class described a movable contactor, a fluid pressure'cylinder and plunger for operating the contactor, means for admitting fluid under pressure at one end to project the contactor and valved .means for admitting fluid under pressure at the other end of' the cylinder to retract the contactor, the first-named means at this time opemng the first-mentioned end ofthe cylinder to exhaust.

a fluid pressure car uncoupling device, a

Amultiple electric contactor,.a cylinder and plunger for advancing and retracting the.

contactor, means for admitting fluid under pressure at the rear of the cylinder, means for admitting fluid under pressure atthe front of the cylinder, and a fluid pressure connection substantially the thickness ofthe plungerv from the rear of the cylinder to open a direct connectionfrom said cylinder to theluncoupling device When the contactoris full retracted. j

72. he combinationvvith a pair of cooperating car couplers, of a multiple electric connector comprising a projectable contactor carried by each coupler, 'means for positively projecting the contactors of both cou lers ever time a cou ling is made a car uncoupling device associated With eachcoupler, and means depending upon the-retraction of the contactor of a given coupler v for operating the uncouplingy device' of that coupler. f

73. 'Ihe combination Withv carreservcir A and brake lines eachhaving a valve opened upon contact with corresponding lines, a

multiple electric conta'ctorg'a fluid pressure device for advancing and retracting it,

means forf connecting the device With the reservoir line fon/advancing the contactor when the reservoir line valve is opened, a

`fluid pressure uncouplingdevice, means for connecting the uncouplerl device to fluid under pressure after the contactor has been retracted, a spring for closing the reservoir` line valve When the couplersI are separated, and means comprising a fluid pressure device in connection with the uncoupling device for closing the 'brake line valve whenl the couplers are separated.

74.-. In a car and lelectric-coupling, the combination with brake and reservoir lines each having a valve opened upon impact with counterpart lines, a car uncoupling device, a fluid pressure device in connection 

